// ==++==
// 
//   
//    Copyright (c) 2006 Microsoft Corporation.  All rights reserved.
//   
//    The use and distribution terms for this software are contained in the file
//    named license.txt, which can be found in the root of this distribution.
//    By using this software in any fashion, you are agreeing to be bound by the
//    terms of this license.
//   
//    You must not remove this notice, or any other, from this software.
//   
// 
// ==--==
/*============================================================
**
** Class:  Char
**
**
** Purpose: This is the value class representing a Unicode character
** Char methods until we create this functionality.
**
**
===========================================================*/
namespace System {
    
    using System;
    using System.Globalization;
    using System.Runtime.InteropServices;
    using System.Runtime.CompilerServices;

[System.Runtime.InteropServices.ComVisible(true)]
    [Serializable, System.Runtime.InteropServices.StructLayout(LayoutKind.Sequential)] public struct Char : IComparable, IConvertible
        , IComparable<Char>, IEquatable<Char>
    {
      //
      // Member Variables
      //
      internal char m_value;
    
      //
      // Public Constants
      //
      // The maximum character value.
      public const char MaxValue =  (char) 0xFFFF;
      // The minimum character value.
      public const char MinValue =  (char) 0x00;

        // Unicode category values from Unicode U+0000 ~ U+00FF. Store them in byte[] array to save space.
        private readonly static byte[] categoryForLatin1 = {
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0000 - 0007
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0008 - 000F
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0010 - 0017
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0018 - 001F
            (byte)UnicodeCategory.SpaceSeparator, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.CurrencySymbol, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation,    // 0020 - 0027
            (byte)UnicodeCategory.OpenPunctuation, (byte)UnicodeCategory.ClosePunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.DashPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation,    // 0028 - 002F
            (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber,    // 0030 - 0037
            (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.DecimalDigitNumber, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.OtherPunctuation,    // 0038 - 003F
            (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter,    // 0040 - 0047
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter,    // 0048 - 004F
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter,    // 0050 - 0057
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.OpenPunctuation, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.ClosePunctuation, (byte)UnicodeCategory.ModifierSymbol, (byte)UnicodeCategory.ConnectorPunctuation,    // 0058 - 005F
            (byte)UnicodeCategory.ModifierSymbol, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 0060 - 0067
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 0068 - 006F
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 0070 - 0077
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.OpenPunctuation, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.ClosePunctuation, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.Control,    // 0078 - 007F
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0080 - 0087
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0088 - 008F
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0090 - 0097
            (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control, (byte)UnicodeCategory.Control,    // 0098 - 009F
            (byte)UnicodeCategory.SpaceSeparator, (byte)UnicodeCategory.OtherPunctuation, (byte)UnicodeCategory.CurrencySymbol, (byte)UnicodeCategory.CurrencySymbol, (byte)UnicodeCategory.CurrencySymbol, (byte)UnicodeCategory.CurrencySymbol, (byte)UnicodeCategory.OtherSymbol, (byte)UnicodeCategory.OtherSymbol,    // 00A0 - 00A7
            (byte)UnicodeCategory.ModifierSymbol, (byte)UnicodeCategory.OtherSymbol, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.InitialQuotePunctuation, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.DashPunctuation, (byte)UnicodeCategory.OtherSymbol, (byte)UnicodeCategory.ModifierSymbol,    // 00A8 - 00AF
            (byte)UnicodeCategory.OtherSymbol, (byte)UnicodeCategory.MathSymbol, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.ModifierSymbol, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.OtherSymbol, (byte)UnicodeCategory.OtherPunctuation,    // 00B0 - 00B7
            (byte)UnicodeCategory.ModifierSymbol, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.FinalQuotePunctuation, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.OtherNumber, (byte)UnicodeCategory.OtherPunctuation,    // 00B8 - 00BF
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter,    // 00C0 - 00C7
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter,    // 00C8 - 00CF
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.MathSymbol,    // 00D0 - 00D7
            (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.UppercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 00D8 - 00DF
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 00E0 - 00E7
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 00E8 - 00EF
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.MathSymbol,    // 00F0 - 00F7
            (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter, (byte)UnicodeCategory.LowercaseLetter,    // 00F8 - 00FF
        };

        // Return true for all characters below or equal U+00ff, which is ASCII + Latin-1 Supplement.
        private static bool IsLatin1(char ch) {
            return (ch <= '\x00ff');
        }

        // Return true for all characters below or equal U+007f, which is ASCII.
        private static bool IsAscii(char ch) {
            return (ch <= '\x007f');
        }

        // Return the Unicode category for Unicode character <= 0x00ff.      
        private static UnicodeCategory GetLatin1UnicodeCategory(char ch) {
            BCLDebug.Assert(IsLatin1(ch), "Char.GetLatin1UnicodeCategory(): ch should be <= 007f");
            return (UnicodeCategory)(categoryForLatin1[(int)ch]);
        }
     
      //
      // Private Constants
      //
    
      //
      // Overriden Instance Methods
      //
    
      // Calculate a hashcode for a 2 byte Unicode character.
      public override int GetHashCode() {
          return (int)m_value | ((int)m_value << 16);
      }
    
      // Used for comparing two boxed Char objects.
      //
      public override bool Equals(Object obj) {
        if (!(obj is Char)) {
          return false;
        }
        return (m_value==((Char)obj).m_value);
      }

      public bool Equals(Char obj)
      {
        return m_value == obj;
      }

      // Compares this object to another object, returning an integer that
      // indicates the relationship. 
      // Returns a value less than zero if this  object
      // null is considered to be less than any instance.
      // If object is not of type Char, this method throws an ArgumentException.
      //
      public int CompareTo(Object value) {
          if (value==null) {
              return 1;
          }
          if (!(value is Char)) {
              throw new ArgumentException (Environment.GetResourceString("Arg_MustBeChar"));
          }
    
          return (m_value-((Char)value).m_value);
      }


      public int CompareTo(Char value) {
          return (m_value-value);
      }
    
      // Overrides System.Object.ToString.
      public override String ToString() {
          return Char.ToString(m_value);
      }

      public String ToString(IFormatProvider provider) {
          return Char.ToString(m_value);
      }

      //
      // Formatting Methods
      //
    
      /*===================================ToString===================================
      **This static methods takes a character and returns the String representation of it.
      ==============================================================================*/
      // Provides a string representation of a character.
      public static String ToString(char c) {
          return new String(c, 1);
      }

      public static char Parse(String s) {
          if (s==null) {
              throw new ArgumentNullException("s");
          } 
          
          if (s.Length!=1) {
              throw new FormatException(Environment.GetResourceString("Format_NeedSingleChar"));
          } 
          return s[0];
      }

        public static bool TryParse(String s, out Char result) {
            result = '\0';
            if (s == null) {
                return false;
            } 
            if (s.Length != 1) {
                return false;
            } 
            result = s[0];
            return true;
        }

      //
      // Static Methods
      //
      /*=================================ISDIGIT======================================
      **A wrapper for Char.  Returns a boolean indicating whether    **
      **character c is considered to be a digit.                                    **
      ==============================================================================*/
      // Determines whether a character is a digit.
      public static bool IsDigit(char c) {
          if (IsLatin1(c)) {
            return (c >= '0' && c <= '9');
          }
          return (CharUnicodeInfo.GetUnicodeCategory(c) == UnicodeCategory.DecimalDigitNumber);        
      }

    
      /*=================================CheckLetter=====================================
      ** Check if the specified UnicodeCategory belongs to the letter categories.
      ==============================================================================*/
      internal static bool CheckLetter(UnicodeCategory uc) {                  
          switch(uc) {
              case (UnicodeCategory.UppercaseLetter):
              case (UnicodeCategory.LowercaseLetter): 
              case (UnicodeCategory.TitlecaseLetter): 
              case (UnicodeCategory.ModifierLetter): 
              case (UnicodeCategory.OtherLetter):
                  return (true);
          }
          return (false);
      }
    
      /*=================================ISLETTER=====================================
      **A wrapper for Char.  Returns a boolean indicating whether    **
      **character c is considered to be a letter.                                   **
      ==============================================================================*/
      // Determines whether a character is a letter.
      public static bool IsLetter(char c) {
          if (IsLatin1(c)) {
              if (IsAscii(c)) {
                  c |=(char)0x20;    
                  return ((c >= 'a' && c <= 'z'));
              }
              return (CheckLetter(GetLatin1UnicodeCategory(c)));
          }
          return (CheckLetter(CharUnicodeInfo.GetUnicodeCategory(c)));
      }

        private static bool IsWhiteSpaceLatin1(char c) {

            // There are characters which belong to UnicodeCategory.Control but are considered as white spaces.
            // We use code point comparisons for these characters here as a temporary fix.
        
            // U+0009 = <control> HORIZONTAL TAB
            // U+000a = <control> LINE FEED
            // U+000b = <control> VERTICAL TAB
            // U+000c = <contorl> FORM FEED
            // U+000d = <control> CARRIAGE RETURN
            // U+0085 = <control> NEXT LINE
            // U+00a0 = NO-BREAK SPACE
            if ((c == ' ') || (c >= '\x0009' && c <= '\x000d') || c == '\x00a0' || c == '\x0085') {
                return (true);
            }
            return (false);
        }
    
    /*===============================ISWHITESPACE===================================
    **A wrapper for Char.  Returns a boolean indicating whether    **
    **character c is considered to be a whitespace character.                     **
    ==============================================================================*/
    // Determines whether a character is whitespace.
    public static bool IsWhiteSpace(char c) {
              
        if (IsLatin1(c)) {
            return (IsWhiteSpaceLatin1(c));
        }
        return CharUnicodeInfo.IsWhiteSpace(c);
    }
    
    
        /*===================================IsUpper====================================
        **Arguments: c -- the characater to be checked.
        **Returns:  True if c is an uppercase character.
        ==============================================================================*/
        // Determines whether a character is upper-case.
        public static bool IsUpper(char c) {
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= 'A' && c <= 'Z');
                }
                return (GetLatin1UnicodeCategory(c)== UnicodeCategory.UppercaseLetter);
            }
            return (CharUnicodeInfo.GetUnicodeCategory(c) == UnicodeCategory.UppercaseLetter);
        }
    
        /*===================================IsLower====================================
        **Arguments: c -- the characater to be checked.
        **Returns:  True if c is an lowercase character.
        ==============================================================================*/
        // Determines whether a character is lower-case.
        public static bool IsLower(char c) {
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= 'a' && c <= 'z');
                }
                return (GetLatin1UnicodeCategory(c)== UnicodeCategory.LowercaseLetter);
            }
            return (CharUnicodeInfo.GetUnicodeCategory(c) == UnicodeCategory.LowercaseLetter);          
        }

      internal static bool CheckPunctuation(UnicodeCategory uc)
      {
          switch (uc) {
              case UnicodeCategory.ConnectorPunctuation:
              case UnicodeCategory.DashPunctuation:
              case UnicodeCategory.OpenPunctuation:
              case UnicodeCategory.ClosePunctuation:
              case UnicodeCategory.InitialQuotePunctuation:
              case UnicodeCategory.FinalQuotePunctuation:
              case UnicodeCategory.OtherPunctuation:
                  return (true);
          }
          return (false);
      }

    
        /*================================IsPunctuation=================================
        **Arguments: c -- the characater to be checked.
        **Returns:  True if c is an punctuation mark
        ==============================================================================*/
        // Determines whether a character is a punctuation mark.
        public static bool IsPunctuation(char c){
            if (IsLatin1(c)) {
                return (CheckPunctuation(GetLatin1UnicodeCategory(c)));  
            }
            return (CheckPunctuation(CharUnicodeInfo.GetUnicodeCategory(c)));
        }
        
      /*=================================CheckLetterOrDigit=====================================
      ** Check if the specified UnicodeCategory belongs to the letter or digit categories.
      ==============================================================================*/
      internal static bool CheckLetterOrDigit(UnicodeCategory uc) {
          switch (uc) {
              case UnicodeCategory.UppercaseLetter:
              case UnicodeCategory.LowercaseLetter:
              case UnicodeCategory.TitlecaseLetter:
              case UnicodeCategory.ModifierLetter:
              case UnicodeCategory.OtherLetter:
              case UnicodeCategory.DecimalDigitNumber:
                  return (true);
          }
          return (false);
      }
    
        // Determines whether a character is a letter or a digit.
        public static bool IsLetterOrDigit(char c) {
            if (IsLatin1(c)) {
                return (CheckLetterOrDigit(GetLatin1UnicodeCategory(c)));
            }
            return (CheckLetterOrDigit(CharUnicodeInfo.GetUnicodeCategory(c)));
        }
    
      /*===================================ToUpper====================================
      **
      ==============================================================================*/
      // Converts a character to upper-case for the specified culture.
      // <;<;Not fully implemented>;>;
      public static char ToUpper(char c, CultureInfo culture) {
        if (culture==null)
            throw new ArgumentNullException("culture");
        return culture.TextInfo.ToUpper(c);
      }
    
      /*=================================TOUPPER======================================
      **A wrapper for Char.toUpperCase.  Converts character c to its **
      **uppercase equivalent.  If c is already an uppercase character or is not an  **
      **alphabetic, nothing happens.                                                **
      ==============================================================================*/
      // Converts a character to upper-case for the default culture.
      //
      public static char ToUpper(char c) {
          return ToUpper(c, CultureInfo.CurrentCulture);
      }
        
      // Converts a character to upper-case for invariant culture.
      public static char ToUpperInvariant(char c) {
          return ToUpper(c, CultureInfo.InvariantCulture);
      }
    
      /*===================================ToLower====================================
      **
      ==============================================================================*/
      // Converts a character to lower-case for the specified culture.
      // <;<;Not fully implemented>;>;
      public static char ToLower(char c, CultureInfo culture) {
        if (culture==null)
            throw new ArgumentNullException("culture");
        return culture.TextInfo.ToLower(c);
      }
    
      /*=================================TOLOWER======================================
      **A wrapper for Char.toLowerCase.  Converts character c to its **
      **lowercase equivalent.  If c is already a lowercase character or is not an   **
      **alphabetic, nothing happens.                                                **
      ==============================================================================*/
      // Converts a character to lower-case for the default culture.
      public static char ToLower(char c) {
        return ToLower(c, CultureInfo.CurrentCulture);
      }

      // Converts a character to lower-case for invariant culture.
      public static char ToLowerInvariant(char c) {
          return ToLower(c, CultureInfo.InvariantCulture);
      }

      //
      // IValue implementation
      //    
      public TypeCode GetTypeCode() {
          return TypeCode.Char;
      }


      /// <internalonly/>
      bool IConvertible.ToBoolean(IFormatProvider provider) {
          throw new InvalidCastException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("InvalidCast_FromTo"), "Char", "Boolean"));
      }

      /// <internalonly/>
      char IConvertible.ToChar(IFormatProvider provider) {
          return m_value;
      }

        /// <internalonly/>
        sbyte IConvertible.ToSByte(IFormatProvider provider) {
            return Convert.ToSByte(m_value);
        }

        /// <internalonly/>
        byte IConvertible.ToByte(IFormatProvider provider) {
            return Convert.ToByte(m_value);
        }

        /// <internalonly/>
        short IConvertible.ToInt16(IFormatProvider provider) {
            return Convert.ToInt16(m_value);
        }

        /// <internalonly/>
        ushort IConvertible.ToUInt16(IFormatProvider provider) {
            return Convert.ToUInt16(m_value);
        }

        /// <internalonly/>
        int IConvertible.ToInt32(IFormatProvider provider) {
            return Convert.ToInt32(m_value);
        }

        /// <internalonly/>
        uint IConvertible.ToUInt32(IFormatProvider provider) {
            return Convert.ToUInt32(m_value);
        }

        /// <internalonly/>
        long IConvertible.ToInt64(IFormatProvider provider) {
            return Convert.ToInt64(m_value);
        }

        /// <internalonly/>
        ulong IConvertible.ToUInt64(IFormatProvider provider) {
            return Convert.ToUInt64(m_value);
        }

        /// <internalonly/>
        float IConvertible.ToSingle(IFormatProvider provider) {
            throw new InvalidCastException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("InvalidCast_FromTo"), "Char", "Single"));
        }

        /// <internalonly/>
        double IConvertible.ToDouble(IFormatProvider provider) {
            throw new InvalidCastException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("InvalidCast_FromTo"), "Char", "Double"));
        }

        /// <internalonly/>
        Decimal IConvertible.ToDecimal(IFormatProvider provider) {
            throw new InvalidCastException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("InvalidCast_FromTo"), "Char", "Decimal"));
        }

        /// <internalonly/>
        DateTime IConvertible.ToDateTime(IFormatProvider provider) {
            throw new InvalidCastException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("InvalidCast_FromTo"), "Char", "DateTime"));
        }

        /// <internalonly/>
        Object IConvertible.ToType(Type type, IFormatProvider provider) {
            return Convert.DefaultToType((IConvertible)this, type, provider);
        }

        public static bool IsControl(char c)
        {
            if (IsLatin1(c)) {
                return (GetLatin1UnicodeCategory(c) == UnicodeCategory.Control);
            }
            return (CharUnicodeInfo.GetUnicodeCategory(c) == UnicodeCategory.Control);
        }
  
        public static bool IsControl(String s, int index) {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                return (GetLatin1UnicodeCategory(c) == UnicodeCategory.Control);
            }
            return (CharUnicodeInfo.GetUnicodeCategory(s, index) == UnicodeCategory.Control);
        }


        public static bool IsDigit(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                return (c >= '0' && c <= '9');
            }
            return (CharUnicodeInfo.GetUnicodeCategory(s, index) == UnicodeCategory.DecimalDigitNumber);        
        }

        public static bool IsLetter(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                  if (IsAscii(c)) {
                      c |=(char)0x20;                        
                      return ((c >= 'a' && c <= 'z'));
                  }
                  return (CheckLetter(GetLatin1UnicodeCategory(c)));
            }
            return (CheckLetter(CharUnicodeInfo.GetUnicodeCategory(s, index)));
        }
                
        public static bool IsLetterOrDigit(String s, int index)
        {   
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                return CheckLetterOrDigit(GetLatin1UnicodeCategory(c));    
            }
            return CheckLetterOrDigit(CharUnicodeInfo.GetUnicodeCategory(s, index));
        }

        public static bool IsLower(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= 'a' && c <= 'z');
                }
                return (GetLatin1UnicodeCategory(c)== UnicodeCategory.LowercaseLetter);
            }
            
            return (CharUnicodeInfo.GetUnicodeCategory(s, index) == UnicodeCategory.LowercaseLetter);
        }

        /*=================================CheckNumber=====================================
        ** Check if the specified UnicodeCategory belongs to the number categories.
        ==============================================================================*/

        internal static bool CheckNumber(UnicodeCategory uc) {
            switch (uc) {
                case (UnicodeCategory.DecimalDigitNumber):
                case (UnicodeCategory.LetterNumber):
                case (UnicodeCategory.OtherNumber):
                    return (true);
            }
            return (false);
        }

        public static bool IsNumber(char c)
        {
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= '0' && c <= '9');
                }
                return (CheckNumber(GetLatin1UnicodeCategory(c)));
            }
            return (CheckNumber(CharUnicodeInfo.GetUnicodeCategory(c)));
        }
             
        public static bool IsNumber(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= '0' && c <= '9');
                }
                return (CheckNumber(GetLatin1UnicodeCategory(c)));
            }
            return (CheckNumber(CharUnicodeInfo.GetUnicodeCategory(s, index)));
        }

        ////////////////////////////////////////////////////////////////////////
        //
        //  IsPunctuation
        //
        //  Determines if the given character is a punctuation character.
        //
        ////////////////////////////////////////////////////////////////////////
    
        public static bool IsPunctuation (String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                return (CheckPunctuation(GetLatin1UnicodeCategory(c)));  
            }
            return (CheckPunctuation(CharUnicodeInfo.GetUnicodeCategory(s, index)));
        }


        /*================================= CheckSeparator ============================
        ** Check if the specified UnicodeCategory belongs to the seprator categories.
        ==============================================================================*/

        internal static bool CheckSeparator(UnicodeCategory uc)
        {
            switch (uc) {
                case UnicodeCategory.SpaceSeparator:
                case UnicodeCategory.LineSeparator:
                case UnicodeCategory.ParagraphSeparator:
                    return (true);
            }
            return (false);
        }

        private static bool IsSeparatorLatin1(char c) {
            // U+00a0 = NO-BREAK SPACE
            // There is no LineSeparator or ParagraphSeparator in Latin 1 range.
            return (c == '\x0020' || c == '\x00a0');
        }

        public static bool IsSeparator(char c)
        {
            if (IsLatin1(c)) {
                return (IsSeparatorLatin1(c));
            }
            return (CheckSeparator(CharUnicodeInfo.GetUnicodeCategory(c)));
        }

        public static bool IsSeparator(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                return (IsSeparatorLatin1(c));
            }
            return (CheckSeparator(CharUnicodeInfo.GetUnicodeCategory(s, index)));
        }

        public static bool IsSurrogate(char c)
        {
            return (c >= HIGH_SURROGATE_START && c <= LOW_SURROGATE_END);
        }

        public static bool IsSurrogate(String s, int index)
        {
            if (s==null) {
                throw new ArgumentNullException("s");
            }
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            return (IsSurrogate(s[index]));
        }

       /*================================= CheckSymbol ============================
        ** Check if the specified UnicodeCategory belongs to the symbol categories.
        ==============================================================================*/

        internal static bool CheckSymbol(UnicodeCategory uc) {
            switch (uc) {
                case (UnicodeCategory.MathSymbol):
                case (UnicodeCategory.CurrencySymbol): 
                case (UnicodeCategory.ModifierSymbol): 
                case (UnicodeCategory.OtherSymbol):            
                    return (true);
            }
            return (false);
        }
        
        public static bool IsSymbol(char c)
        {
            if (IsLatin1(c)) {
                return (CheckSymbol(GetLatin1UnicodeCategory(c)));
            }
            return (CheckSymbol(CharUnicodeInfo.GetUnicodeCategory(c)));
        }

        public static bool IsSymbol(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            if (IsLatin1(s[index])) {
                return (CheckSymbol(GetLatin1UnicodeCategory(s[index])));
            }
            return (CheckSymbol(CharUnicodeInfo.GetUnicodeCategory(s, index)));
        }

        
        public static bool IsUpper(String s, int index)
        {   
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            char c = s[index];
            if (IsLatin1(c)) {
                if (IsAscii(c)) {
                    return (c >= 'A' && c <= 'Z');
                }
                return (GetLatin1UnicodeCategory(c)== UnicodeCategory.UppercaseLetter);
            }
            
            return (CharUnicodeInfo.GetUnicodeCategory(s, index) == UnicodeCategory.UppercaseLetter);
        }

        public static bool IsWhiteSpace(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }

            if (IsLatin1(s[index])) {
                return IsWhiteSpaceLatin1(s[index]);
            }                
            
            return CharUnicodeInfo.IsWhiteSpace(s, index);
        }
        
        public static UnicodeCategory GetUnicodeCategory(char c)
        {
            if (IsLatin1(c)) {
                return (GetLatin1UnicodeCategory(c));
            }
            return CharUnicodeInfo.InternalGetUnicodeCategory(c);
        }

        public static UnicodeCategory GetUnicodeCategory(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            if (IsLatin1(s[index])) {
                return (GetLatin1UnicodeCategory(s[index]));
            }
            return CharUnicodeInfo.InternalGetUnicodeCategory(s, index);
        }

        public static double GetNumericValue(char c)
        {
            return CharUnicodeInfo.GetNumericValue(c);
        }

        public static double GetNumericValue(String s, int index)
        {
            if (s==null)
                throw new ArgumentNullException("s");
            if (((uint)index)>=((uint)s.Length)) {
                throw new ArgumentOutOfRangeException("index");
            }
            return CharUnicodeInfo.GetNumericValue(s, index);
        }


       /*================================= IsHighSurrogate ============================
        ** Check if a char is a high surrogate.
        ==============================================================================*/
        public static bool IsHighSurrogate(char c) {
            return ((c >= CharUnicodeInfo.HIGH_SURROGATE_START) && (c <= CharUnicodeInfo.HIGH_SURROGATE_END));
        } 

        public static bool IsHighSurrogate(String s, int index) {
            if (s == null) {
                throw new ArgumentNullException("s");
            }
            if (index < 0 || index >= s.Length) {
                throw new ArgumentOutOfRangeException("index");
            }
            return (IsHighSurrogate(s[index]));
        } 
        
       /*================================= IsLowSurrogate ============================
        ** Check if a char is a low surrogate.
        ==============================================================================*/
        public static bool IsLowSurrogate(char c) {
            return ((c >= CharUnicodeInfo.LOW_SURROGATE_START) && (c <= CharUnicodeInfo.LOW_SURROGATE_END));
        }

        public static bool IsLowSurrogate(String s, int index) {
            if (s == null) {
                throw new ArgumentNullException("s");
            }
            if (index < 0 || index >= s.Length) {
                throw new ArgumentOutOfRangeException("index");
            }
            return (IsLowSurrogate(s[index]));
        } 

       /*================================= IsSurrogatePair ============================
        ** Check if the string specified by the index starts with a surrogate pair.
        ==============================================================================*/
        public static bool IsSurrogatePair(String s, int index) {
            if (s == null) {
                throw new ArgumentNullException("s");
            }
            if (index < 0 || index >= s.Length) {
                throw new ArgumentOutOfRangeException("index");
            }
            if (index + 1 < s.Length) {
                return (IsSurrogatePair(s[index], s[index+1]));
            }
            return (false);
        }

        public static bool IsSurrogatePair(char highSurrogate, char lowSurrogate) {
            return ((highSurrogate >= CharUnicodeInfo.HIGH_SURROGATE_START && highSurrogate <= CharUnicodeInfo.HIGH_SURROGATE_END) &&
                    (lowSurrogate >= CharUnicodeInfo.LOW_SURROGATE_START && lowSurrogate <= CharUnicodeInfo.LOW_SURROGATE_END));
        }

        internal const int UNICODE_PLANE00_END = 0x00ffff;
        // The starting codepoint for Unicode plane 1.  Plane 1 contains 0x010000 ~ 0x01ffff.
        internal const int UNICODE_PLANE01_START = 0x10000;
        // The end codepoint for Unicode plane 16.  This is the maximum code point value allowed for Unicode.
        // Plane 16 contains 0x100000 ~ 0x10ffff.
        internal const int UNICODE_PLANE16_END   = 0x10ffff;

        internal const int HIGH_SURROGATE_START = 0x00d800;
        internal const int LOW_SURROGATE_END    = 0x00dfff;
        


       /*================================= ConvertFromUtf32 ============================
        ** Convert an UTF32 value into a surrogate pair.
        ==============================================================================*/
        
        public static String ConvertFromUtf32(int utf32)
        {
            // For UTF32 values from U+00D800 ~ U+00DFFF, we should throw.  They
            // are considered as irregular code unit sequence, but they are not illegal.
            if ((utf32 < 0 || utf32 > UNICODE_PLANE16_END) || (utf32 >= HIGH_SURROGATE_START && utf32 <= LOW_SURROGATE_END)) {
                throw new ArgumentOutOfRangeException("utf32", Environment.GetResourceString("ArgumentOutOfRange_InvalidUTF32"));
            }

            if (utf32 < UNICODE_PLANE01_START) {
                // This is a BMP character.
                return (Char.ToString((char)utf32));
            }
            // This is a sumplementary character.  Convert it to a surrogate pair in UTF-16.
            utf32 -= UNICODE_PLANE01_START;
            char[] surrogate = new char[2];
            surrogate[0] = (char)((utf32 / 0x400) + (int)CharUnicodeInfo.HIGH_SURROGATE_START);
            surrogate[1] = (char)((utf32 % 0x400) + (int)CharUnicodeInfo.LOW_SURROGATE_START);
            return (new String(surrogate));
        }


        /*=============================ConvertToUtf32===================================
        ** Convert a surrogate pair to UTF32 value                                    
        ==============================================================================*/
        
        public static int ConvertToUtf32(char highSurrogate, char lowSurrogate) {
            if (!IsHighSurrogate(highSurrogate)) {
                throw new ArgumentOutOfRangeException("highSurrogate", Environment.GetResourceString("ArgumentOutOfRange_InvalidHighSurrogate")); 
            }
            if (!IsLowSurrogate(lowSurrogate)) {
                throw new ArgumentOutOfRangeException("lowSurrogate", Environment.GetResourceString("ArgumentOutOfRange_InvalidLowSurrogate"));
            }
            return (((highSurrogate - CharUnicodeInfo.HIGH_SURROGATE_START) * 0x400) + (lowSurrogate - CharUnicodeInfo.LOW_SURROGATE_START) + UNICODE_PLANE01_START);
        }

        /*=============================ConvertToUtf32===================================
        ** Convert a character or a surrogate pair starting at index of the specified string 
        ** to UTF32 value.
        ** The char pointed by index should be a surrogate pair or a BMP character.
        ** This method throws if a high-surrogate is not followed by a low surrogate.
        ** This method throws if a low surrogate is seen without preceding a high-surrogate.
        ==============================================================================*/
        
        public static int ConvertToUtf32(String s, int index) {
            if (s == null) {
                throw new ArgumentNullException("s");
            }

            if (index < 0 || index >= s.Length) {
                throw new ArgumentOutOfRangeException("index", Environment.GetResourceString("ArgumentOutOfRange_Index"));
            }
            // Check if the character at index is a high surrogate.
            int temp1 = (int)s[index] - CharUnicodeInfo.HIGH_SURROGATE_START;
            if (temp1 >= 0 && temp1 <= 0x7ff) {
                // Found a surrogate char.
                if (temp1 <= 0x3ff) {
                    // Found a high surrogate.
                    if (index < s.Length - 1) {
                        int temp2 = (int)s[index+1] - CharUnicodeInfo.LOW_SURROGATE_START;
                        if (temp2 >= 0 && temp2 <= 0x3ff) {
                            // Found a low surrogate.
                            return ((temp1 * 0x400) + temp2 + UNICODE_PLANE01_START);
                        } else {
                            throw new ArgumentException(Environment.GetResourceString("Argument_InvalidHighSurrogate", index), "s"); 
                        }
                    } else {
                        // Found a high surrogate at the end of the string.
                        throw new ArgumentException(Environment.GetResourceString("Argument_InvalidHighSurrogate", index), "s"); 
                    }
                } else {
                    // Find a low surrogate at the character pointed by index.
                    throw new ArgumentException(Environment.GetResourceString("Argument_InvalidLowSurrogate", index), "s"); 
                }
            }
            // Not a high-surrogate or low-surrogate. Genereate the UTF32 value for the BMP characters.
            return ((int)s[index]);
        }
    }
}
